To determine how wide the cell will appear under the given magnification, we need to multiply the actual width of the cell by the magnification factor. The calculation would be 20 um (actual width) x 1500 (magnification) = 30,000 um. To convert this to a more convenient unit, we can express it as 30,000 um = 30 mm (1 mm = 1000 um). Therefore, the cell, which is 20 um wide, will appear to be 30 mm wide under a magnification of x1500.
'Looked Up' Plus Four was created in 2002.
I looked it up and it doesn't have a meaning. Then again i only looked once?!
because they looked at kierans face
When the first man looked at his hands and feet
She looked at him numbly after she woke up from fainting.
Well, isn't that just a happy little question! When you look at that cell with a magnification of x1500, it will appear 30 millimetres wide. Just remember, whether it's a tiny cell or a big ol' mountain, we can always find beauty in the details.
He looked well to me!
An opera.
they don't really appear they were made by astronomers who looked at the sky and made patterns and said what it was. like for example cancer it is like a y in the sky and its a crab its like looking up at the clouds they just looked at the stars basically connected the dots
Slaves began when farmers looked for workers to labor their fields, and blacks were the most convenient choice because whites regarded them as property.
When you look at letters of a newspaper through thick glass, the phenomenon is known as "magnification." The glass acts as a lens, focusing and slightly enlarging the image of the text on the newspaper, making it appear raised. This effect is due to the bending of light rays as they pass through the glass.
Nope, I even looked in the Hebrew & Greek transliterated words
That name does not appear in the credits.
well i looked on the images cause i had the same question and it was white with a blue band.
The word "indigo" does not appear in the KJV, NKJV, NIV or the NASB. Some words may have synonyms that may be looked up.
Matt's mask looked scary. If you looked into the eyes you would turn into stone.
The objective lenses on a microscope are held in place by the revolving nosepiece. This rotating mechanism allows users to easily switch between different objective lenses to adjust the magnification level.